From compact point defects to extended structures in silicon

First-principles studies of the formation and dynamics of silicon interstitial-clusters suggest a possible growth mechanism of silicon interstitial-chains as seen in macroscopic 311 planar defects. The relative populations of the three lowest-energy silicon tri-interstitials equilibrate within a few microseconds. Unfortunately, the tri-interstitial chain is unstable, quickly decaying to the ground-state interstitial. However, the four-interstitial chain with escape barriers of 0.54 eV is relatively stable and can be formed by exothermic capture of an interstitial by the ground-state tri-interstitial. This first successful step seems capable of growing longer chains. If one chain eases the formation of a second parallel chain, this may start the process of forming 311 planar defects. Copyright EDP Sciences/Società Italiana di Fisica/Springer-Verlag 2007

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Year of publication:	2007
Authors:	Du, Y. A. ; Hennig, R. G. ; Lenosky, T. J. ; Wilkins, J. W.
Published in:	The European Physical Journal B - Condensed Matter and Complex Systems. - Springer. - Vol. 57.2007, 3, p. 229-234
Publisher:	Springer
Subject:	61.72.Cc Kinetics of defect formation and annealing \| 61.72.Ji Point defects (vacancies \| interstitials) and defect clusters \| 71.15.Mb Density functional theory \| local density approximation \| gradient and other corrections \| 71.15.Pd Molecular dynamics calculations

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Type of publication:	Article
Source:	RePEc - Research Papers in Economics

Persistent link: https://ebvufind01.dmz1.zbw.eu/10009281826